Using co-teaching and co-generative dialogue to improve teacher-student interactions and students' awareness of their place in the environment. The study addresses the political, social agenda of Australia. The findings of the co-teaching/co-generative dialogue research in science environmental education will encourage teachers to implement desirable changes in their teaching, benefiting community through application of research results to education systems, and increasing understanding of effec ....Using co-teaching and co-generative dialogue to improve teacher-student interactions and students' awareness of their place in the environment. The study addresses the political, social agenda of Australia. The findings of the co-teaching/co-generative dialogue research in science environmental education will encourage teachers to implement desirable changes in their teaching, benefiting community through application of research results to education systems, and increasing understanding of effective teaching. Priority research funding is being afforded to several areas of natural science research; there is an imperative that environmental science education in schools progresses commensurately. The long-term ability of universities to conduct their natural science research will be dependent on foundational improvements in environmental science education in schools.Read moreRead less
Weathering on Mars and Australian Analogues: Developing Suitable Chronological Tools and Theoretical Approaches. The research outlined in this proposal will place Australia at the forefront of Mars exploration research. It will lead to the development of new approaches for the analysis of minerals formed by low temperature water-rock interaction and for the interpretation of geochronological results obtained from supergene minerals. The new analytical approaches developed in this project will ha ....Weathering on Mars and Australian Analogues: Developing Suitable Chronological Tools and Theoretical Approaches. The research outlined in this proposal will place Australia at the forefront of Mars exploration research. It will lead to the development of new approaches for the analysis of minerals formed by low temperature water-rock interaction and for the interpretation of geochronological results obtained from supergene minerals. The new analytical approaches developed in this project will have direct application in the study of the paleoclimatological and environmental evolution of Earth and Mars. It will also result in improved understanding of environmental and landscape evolution in Australia, helping to reach the objectives of an Environmentally Sustainable Australia, a national research priority.Read moreRead less
Resolving Critical Knowledge Gaps Relating to Light and Free-Radical Mediated Transformations of Iron and Copper in Oxic Natural Waters. Understanding the transformation kinetics of iron and copper species is critical to maintaining Australia's water resources since i) iron transformations are key to generation and transport of acid in Australia's coastal environment; ii) growth of toxic algae are stimulated by dissolution of iron-rich sediments with subsequent release of nutrients phosphorus an ....Resolving Critical Knowledge Gaps Relating to Light and Free-Radical Mediated Transformations of Iron and Copper in Oxic Natural Waters. Understanding the transformation kinetics of iron and copper species is critical to maintaining Australia's water resources since i) iron transformations are key to generation and transport of acid in Australia's coastal environment; ii) growth of toxic algae are stimulated by dissolution of iron-rich sediments with subsequent release of nutrients phosphorus and iron, and iii) algal toxicity is related to iron and copper nutrition and interplay of these metals with oxygen. Additionally, global cycles of carbon, phosphorus and nitrogen are influenced by iron and copper interactions with light and oxygen. Improved understanding of these processes should lead to an awareness of how to prevent these problems and, if they occur, approaches to their mitigation.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347962
Funder
Australian Research Council
Funding Amount
$218,000.00
Summary
Adelaide Mass Spectrometry and Analysis Facility. This joint proposal by two South Australian universities and the Hanson Institute seeks to establish a facility for rapid characterisation and identification of biomolecules by means of MALDI-TOF and Nano LC mass spectrometry. The requested equipment is not available in South Australia. This proposal would establish a Nano LC (Q-TOF) node at the University of Adelaide-University of South Australia location and a MALDI-TOF node at the Flinders loc ....Adelaide Mass Spectrometry and Analysis Facility. This joint proposal by two South Australian universities and the Hanson Institute seeks to establish a facility for rapid characterisation and identification of biomolecules by means of MALDI-TOF and Nano LC mass spectrometry. The requested equipment is not available in South Australia. This proposal would establish a Nano LC (Q-TOF) node at the University of Adelaide-University of South Australia location and a MALDI-TOF node at the Flinders location. Its presence would greatly enhance the quality of research and teaching in priority areas such as proteomics, bioinformatics and nanotechnology and would provide a basis for fostering university and biotechnology industry collaborations.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0239035
Funder
Australian Research Council
Funding Amount
$900,000.00
Summary
Regional facility for surface and micro-structure analysis. Adelaide, Flinders and SA Universities seek to enhance the regional facility for surface and microstructure analysis. Equipment includes electron back scatter pattern imaging, high resolution coater, microprobe (CAMECA SX51) upgrade and X ray microtomography to be located at Adelaide University Centre for Electron Microscopy and Microstructure Analysis, the hub of the regional facility. The University of South Australia Ian Wark Researc ....Regional facility for surface and micro-structure analysis. Adelaide, Flinders and SA Universities seek to enhance the regional facility for surface and microstructure analysis. Equipment includes electron back scatter pattern imaging, high resolution coater, microprobe (CAMECA SX51) upgrade and X ray microtomography to be located at Adelaide University Centre for Electron Microscopy and Microstructure Analysis, the hub of the regional facility. The University of South Australia Ian Wark Research Institute node will house ToF-SIMS and SAM upgrades, the Flinders node a multimode STM atomic force microscope, and the Adelaide University Waite Campus node confocal xyz control and digital camera. Applications include biological, materials and geological research projects.Read moreRead less
Photochemistry of the Middle Atmospheres of Venus and the Earth. Ongoing changes in the Earth's atmosphere, such as ozone depletion, demonstrate the need to understand the processes that control atmospheric chemistry. The proposed research will improve the fidelity of photochemical models, provide additional insight into the recent evolution of the Venus atmosphere, and examine how atmospheric chemistry and climate change interact(ed) on Venus. This research will improve our understanding of l ....Photochemistry of the Middle Atmospheres of Venus and the Earth. Ongoing changes in the Earth's atmosphere, such as ozone depletion, demonstrate the need to understand the processes that control atmospheric chemistry. The proposed research will improve the fidelity of photochemical models, provide additional insight into the recent evolution of the Venus atmosphere, and examine how atmospheric chemistry and climate change interact(ed) on Venus. This research will improve our understanding of long-standing issues, such as how much water might have been present on Venus in the recent past. The research program will provide an opportunity for Australian science to participate in at least one spacecraft mission to Venus. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453973
Funder
Australian Research Council
Funding Amount
$696,093.00
Summary
Surface Spectroscopic and Microstructure Analysis. Funding is requested for an X-ray Photoelectron Spectrometer (XPS) and an Image Plate Guinier Camera (IPGC), to update and expand capabilities in surface spectroscopic and microstructural analysis of a wide range of materials. The XPS unit, to be located at the University of SA, will replace two 18-year old XPS units at UniSA and Flinders University. The IPGC is a new and unique instrument which will be located at the University of Adelaide. The ....Surface Spectroscopic and Microstructure Analysis. Funding is requested for an X-ray Photoelectron Spectrometer (XPS) and an Image Plate Guinier Camera (IPGC), to update and expand capabilities in surface spectroscopic and microstructural analysis of a wide range of materials. The XPS unit, to be located at the University of SA, will replace two 18-year old XPS units at UniSA and Flinders University. The IPGC is a new and unique instrument which will be located at the University of Adelaide. These items will be incorporated into the SA Regional Facility, which provides seamless access to instrumentation across nodes. Applications include materials science, geological and biological research projects.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668226
Funder
Australian Research Council
Funding Amount
$186,000.00
Summary
A new X-ray spectrometer facility for VIEPS: major and trace element characterisation of geological materials. Australia has a well-earned reputation as a leading innovator in analytical geochemistry and the acquisition of this instrumentation will reinforce that standing. The equipment will support a broad range of research activities and enhance our capability for research training at Honours and post-graduate student level. In addition this project addresses directly our current National Rese ....A new X-ray spectrometer facility for VIEPS: major and trace element characterisation of geological materials. Australia has a well-earned reputation as a leading innovator in analytical geochemistry and the acquisition of this instrumentation will reinforce that standing. The equipment will support a broad range of research activities and enhance our capability for research training at Honours and post-graduate student level. In addition this project addresses directly our current National Research Priority 'an environmentally sustainable Australia', and priority goals 'Developing deep earth resources' and 'Responding to climate change and variability'Read moreRead less
A new rheological model for Australia to improve seismic hazard estimates and study the region's recent tectonic history and landform evolution. Australia is currently being squeezed between three active mountain belts, the Himalayas, the Papua New Guinea Highlands and the Southern Alps in New Zealand. We propose to integrate a large number of geological and geophysical databases that have been collected over the past few decades to develop a three-dimensional rheological model of the Australian ....A new rheological model for Australia to improve seismic hazard estimates and study the region's recent tectonic history and landform evolution. Australia is currently being squeezed between three active mountain belts, the Himalayas, the Papua New Guinea Highlands and the Southern Alps in New Zealand. We propose to integrate a large number of geological and geophysical databases that have been collected over the past few decades to develop a three-dimensional rheological model of the Australian continent, that is a model that predicts where and how Australia is deforming today. Combined with new, targeted field work, this model will be used to predict where earthquakes are likely to take place but also to study how our old continent is affected by these active mountain belts to create the present-day landscapes in which we live.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0237922
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
High Resolution Cryogenic Field Emission Environmental Scanning Electron Microscope Facility. A high resolution variable pressure scanning electron microscope will replace aging, heavily utilised facilities. It will be accessed by existing large and diverse user groups in a mature and internationally-recognised Centre. The novel combination of a cryogenic stage and the electrostatic beam blanking modification will support continuance of the local, world-leading research and application of new ....High Resolution Cryogenic Field Emission Environmental Scanning Electron Microscope Facility. A high resolution variable pressure scanning electron microscope will replace aging, heavily utilised facilities. It will be accessed by existing large and diverse user groups in a mature and internationally-recognised Centre. The novel combination of a cryogenic stage and the electrostatic beam blanking modification will support continuance of the local, world-leading research and application of new imaging techniques, particularly in the materials and mineral sciences. Both new nanotechnology and existing globally-significant industries will utilise the unique aspects of this instrument for product refinement and maintenance of commercial leadership, in partnership with local Universities and Government agencies.Read moreRead less